/* -----------------------------------------------------------------
 * Programmer(s): Radu Serban @ LLNL
 * -----------------------------------------------------------------
 * SUNDIALS Copyright Start
 * Copyright (c) 2002-2025, Lawrence Livermore National Security
 * and Southern Methodist University.
 * All rights reserved.
 *
 * See the top-level LICENSE and NOTICE files for details.
 *
 * SPDX-License-Identifier: BSD-3-Clause
 * SUNDIALS Copyright End
 * -----------------------------------------------------------------
 * This is the header file for the main IDAS solver.
 * -----------------------------------------------------------------*/

#ifndef _IDAS_H
#define _IDAS_H

#include <idas/idas_ls.h>
#include <stdio.h>
#include <sundials/sundials_core.h>

#ifdef __cplusplus /* wrapper to enable C++ usage */
extern "C" {
#endif

/* -----------------
 * IDAS Constants
 * ----------------- */

/* itask */
#define IDA_NORMAL   1
#define IDA_ONE_STEP 2

/* icopt */
#define IDA_YA_YDP_INIT 1
#define IDA_Y_INIT      2

/* ism */
#define IDA_SIMULTANEOUS 1
#define IDA_STAGGERED    2

/* DQtype */
#define IDA_CENTERED 1
#define IDA_FORWARD  2

/* interp */
#define IDA_HERMITE    1
#define IDA_POLYNOMIAL 2

/* return values */

#define IDA_SUCCESS      0
#define IDA_TSTOP_RETURN 1
#define IDA_ROOT_RETURN  2

#define IDA_WARNING 99

#define IDA_TOO_MUCH_WORK -1
#define IDA_TOO_MUCH_ACC  -2
#define IDA_ERR_FAIL      -3
#define IDA_CONV_FAIL     -4

#define IDA_LINIT_FAIL  -5
#define IDA_LSETUP_FAIL -6
#define IDA_LSOLVE_FAIL -7
#define IDA_RES_FAIL    -8
#define IDA_REP_RES_ERR -9
#define IDA_RTFUNC_FAIL -10
#define IDA_CONSTR_FAIL -11

#define IDA_FIRST_RES_FAIL  -12
#define IDA_LINESEARCH_FAIL -13
#define IDA_NO_RECOVERY     -14
#define IDA_NLS_INIT_FAIL   -15
#define IDA_NLS_SETUP_FAIL  -16
#define IDA_NLS_FAIL        -17

#define IDA_MEM_NULL     -20
#define IDA_MEM_FAIL     -21
#define IDA_ILL_INPUT    -22
#define IDA_NO_MALLOC    -23
#define IDA_BAD_EWT      -24
#define IDA_BAD_K        -25
#define IDA_BAD_T        -26
#define IDA_BAD_DKY      -27
#define IDA_VECTOROP_ERR -28

#define IDA_CONTEXT_ERR -29

#define IDA_NO_QUAD        -30
#define IDA_QRHS_FAIL      -31
#define IDA_FIRST_QRHS_ERR -32
#define IDA_REP_QRHS_ERR   -33

#define IDA_NO_SENS      -40
#define IDA_SRES_FAIL    -41
#define IDA_REP_SRES_ERR -42
#define IDA_BAD_IS       -43

#define IDA_NO_QUADSENS     -50
#define IDA_QSRHS_FAIL      -51
#define IDA_FIRST_QSRHS_ERR -52
#define IDA_REP_QSRHS_ERR   -53

#define IDA_UNRECOGNIZED_ERROR -99

/* adjoint return values */

#define IDA_NO_ADJ      -101
#define IDA_NO_FWD      -102
#define IDA_NO_BCK      -103
#define IDA_BAD_TB0     -104
#define IDA_REIFWD_FAIL -105
#define IDA_FWD_FAIL    -106
#define IDA_GETY_BADT   -107

/* ------------------------------
 * User-Supplied Function Types
 * ------------------------------ */

typedef int (*IDAResFn)(sunrealtype tt, N_Vector yy, N_Vector yp, N_Vector rr,
                        void* user_data);

typedef int (*IDARootFn)(sunrealtype t, N_Vector y, N_Vector yp,
                         sunrealtype* gout, void* user_data);

typedef int (*IDAEwtFn)(N_Vector y, N_Vector ewt, void* user_data);

typedef int (*IDAQuadRhsFn)(sunrealtype tres, N_Vector yy, N_Vector yp,
                            N_Vector rrQ, void* user_data);

typedef int (*IDASensResFn)(int Ns, sunrealtype t, N_Vector yy, N_Vector yp,
                            N_Vector resval, N_Vector* yyS, N_Vector* ypS,
                            N_Vector* resvalS, void* user_data, N_Vector tmp1,
                            N_Vector tmp2, N_Vector tmp3);

typedef int (*IDAQuadSensRhsFn)(int Ns, sunrealtype t, N_Vector yy, N_Vector yp,
                                N_Vector* yyS, N_Vector* ypS, N_Vector rrQ,
                                N_Vector* rhsvalQS, void* user_data,
                                N_Vector yytmp, N_Vector yptmp, N_Vector tmpQS);

typedef int (*IDAResFnB)(sunrealtype tt, N_Vector yy, N_Vector yp, N_Vector yyB,
                         N_Vector ypB, N_Vector rrB, void* user_dataB);

typedef int (*IDAResFnBS)(sunrealtype t, N_Vector yy, N_Vector yp,
                          N_Vector* yyS, N_Vector* ypS, N_Vector yyB,
                          N_Vector ypB, N_Vector rrBS, void* user_dataB);

typedef int (*IDAQuadRhsFnB)(sunrealtype tt, N_Vector yy, N_Vector yp,
                             N_Vector yyB, N_Vector ypB, N_Vector rhsvalBQ,
                             void* user_dataB);

typedef int (*IDAQuadRhsFnBS)(sunrealtype t, N_Vector yy, N_Vector yp,
                              N_Vector* yyS, N_Vector* ypS, N_Vector yyB,
                              N_Vector ypB, N_Vector rhsvalBQS, void* user_dataB);

/* ---------------------------------------
 * Exported Functions -- Forward Problems
 * --------------------------------------- */

/* Initialization functions */
SUNDIALS_EXPORT void* IDACreate(SUNContext sunctx);

SUNDIALS_EXPORT int IDAInit(void* ida_mem, IDAResFn res, sunrealtype t0,
                            N_Vector yy0, N_Vector yp0);
SUNDIALS_EXPORT int IDAReInit(void* ida_mem, sunrealtype t0, N_Vector yy0,
                              N_Vector yp0);

/* Tolerance input functions */
SUNDIALS_EXPORT int IDASStolerances(void* ida_mem, sunrealtype reltol,
                                    sunrealtype abstol);
SUNDIALS_EXPORT int IDASVtolerances(void* ida_mem, sunrealtype reltol,
                                    N_Vector abstol);
SUNDIALS_EXPORT int IDAWFtolerances(void* ida_mem, IDAEwtFn efun);

/* Initial condition calculation function */
SUNDIALS_EXPORT int IDACalcIC(void* ida_mem, int icopt, sunrealtype tout1);

/* Initial condition calculation optional input functions */
SUNDIALS_EXPORT int IDASetNonlinConvCoefIC(void* ida_mem, sunrealtype epiccon);
SUNDIALS_EXPORT int IDASetMaxNumStepsIC(void* ida_mem, int maxnh);
SUNDIALS_EXPORT int IDASetMaxNumJacsIC(void* ida_mem, int maxnj);
SUNDIALS_EXPORT int IDASetMaxNumItersIC(void* ida_mem, int maxnit);
SUNDIALS_EXPORT int IDASetLineSearchOffIC(void* ida_mem, sunbooleantype lsoff);
SUNDIALS_EXPORT int IDASetStepToleranceIC(void* ida_mem, sunrealtype steptol);
SUNDIALS_EXPORT int IDASetMaxBacksIC(void* ida_mem, int maxbacks);

/* Optional input functions */
SUNDIALS_EXPORT int IDASetDeltaCjLSetup(void* ida_max, sunrealtype dcj);
SUNDIALS_EXPORT int IDASetUserData(void* ida_mem, void* user_data);
SUNDIALS_EXPORT int IDASetMaxOrd(void* ida_mem, int maxord);
SUNDIALS_EXPORT int IDASetMaxNumSteps(void* ida_mem, long int mxsteps);
SUNDIALS_EXPORT int IDASetInitStep(void* ida_mem, sunrealtype hin);
SUNDIALS_EXPORT int IDASetMaxStep(void* ida_mem, sunrealtype hmax);
SUNDIALS_EXPORT int IDASetMinStep(void* ida_mem, sunrealtype hmin);
SUNDIALS_EXPORT int IDASetStopTime(void* ida_mem, sunrealtype tstop);
SUNDIALS_EXPORT int IDAClearStopTime(void* ida_mem);
SUNDIALS_EXPORT int IDASetMaxErrTestFails(void* ida_mem, int maxnef);
SUNDIALS_EXPORT int IDASetSuppressAlg(void* ida_mem, sunbooleantype suppressalg);
SUNDIALS_EXPORT int IDASetId(void* ida_mem, N_Vector id);
SUNDIALS_EXPORT int IDASetConstraints(void* ida_mem, N_Vector constraints);

/* Optional step adaptivity input functions */
SUNDIALS_EXPORT
int IDASetEtaFixedStepBounds(void* ida_mem, sunrealtype eta_min_fx,
                             sunrealtype eta_max_fx);
SUNDIALS_EXPORT
int IDASetEtaMin(void* ida_mem, sunrealtype eta_min);
SUNDIALS_EXPORT
int IDASetEtaMax(void* ida_mem, sunrealtype eta_max);
SUNDIALS_EXPORT
int IDASetEtaLow(void* ida_mem, sunrealtype eta_low);
SUNDIALS_EXPORT
int IDASetEtaMinErrFail(void* ida_mem, sunrealtype eta_min_ef);
SUNDIALS_EXPORT
int IDASetEtaConvFail(void* ida_mem, sunrealtype eta_cf);

/* Nonlinear solve input functions */
SUNDIALS_EXPORT int IDASetMaxConvFails(void* ida_mem, int maxncf);
SUNDIALS_EXPORT int IDASetMaxNonlinIters(void* ida_mem, int maxcor);
SUNDIALS_EXPORT int IDASetNlsResFn(void* IDA_mem, IDAResFn res);
SUNDIALS_EXPORT int IDASetNonlinConvCoef(void* ida_mem, sunrealtype epcon);
SUNDIALS_EXPORT int IDASetNonlinearSolver(void* ida_mem, SUNNonlinearSolver NLS);

/* Rootfinding initialization function */
SUNDIALS_EXPORT int IDARootInit(void* ida_mem, int nrtfn, IDARootFn g);

/* Rootfinding optional input functions */
SUNDIALS_EXPORT int IDASetRootDirection(void* ida_mem, int* rootdir);
SUNDIALS_EXPORT int IDASetNoInactiveRootWarn(void* ida_mem);

/* Solver function */
SUNDIALS_EXPORT int IDASolve(void* ida_mem, sunrealtype tout, sunrealtype* tret,
                             N_Vector yret, N_Vector ypret, int itask);

/* Utility functions to update/compute y and yp based on ycor */
SUNDIALS_EXPORT int IDAComputeY(void* ida_mem, N_Vector ycor, N_Vector y);
SUNDIALS_EXPORT int IDAComputeYp(void* ida_mem, N_Vector ycor, N_Vector yp);
SUNDIALS_EXPORT int IDAComputeYSens(void* ida_mem, N_Vector* ycor, N_Vector* yyS);
SUNDIALS_EXPORT int IDAComputeYpSens(void* ida_mem, N_Vector* ycor,
                                     N_Vector* ypS);

/* Dense output function */
SUNDIALS_EXPORT int IDAGetDky(void* ida_mem, sunrealtype t, int k, N_Vector dky);

/* Optional output functions */
SUNDIALS_DEPRECATED_EXPORT_MSG(
  "Work space functions will be removed in version 8.0.0")
int IDAGetWorkSpace(void* ida_mem, long int* lenrw, long int* leniw);
SUNDIALS_EXPORT int IDAGetNumSteps(void* ida_mem, long int* nsteps);
SUNDIALS_EXPORT int IDAGetNumResEvals(void* ida_mem, long int* nrevals);
SUNDIALS_EXPORT int IDAGetNumLinSolvSetups(void* ida_mem, long int* nlinsetups);
SUNDIALS_EXPORT int IDAGetNumErrTestFails(void* ida_mem, long int* netfails);
SUNDIALS_EXPORT int IDAGetNumBacktrackOps(void* ida_mem, long int* nbacktr);
SUNDIALS_EXPORT int IDAGetConsistentIC(void* ida_mem, N_Vector yy0_mod,
                                       N_Vector yp0_mod);
SUNDIALS_EXPORT int IDAGetLastOrder(void* ida_mem, int* klast);
SUNDIALS_EXPORT int IDAGetCurrentOrder(void* ida_mem, int* kcur);
SUNDIALS_EXPORT int IDAGetCurrentCj(void* ida_mem, sunrealtype* cj);
SUNDIALS_EXPORT int IDAGetCurrentY(void* ida_mem, N_Vector* ycur);
SUNDIALS_EXPORT int IDAGetCurrentYSens(void* ida_mem, N_Vector** yS);
SUNDIALS_EXPORT int IDAGetCurrentYp(void* ida_mem, N_Vector* ypcur);
SUNDIALS_EXPORT int IDAGetCurrentYpSens(void* ida_mem, N_Vector** ypS);
SUNDIALS_EXPORT int IDAGetActualInitStep(void* ida_mem, sunrealtype* hinused);
SUNDIALS_EXPORT int IDAGetLastStep(void* ida_mem, sunrealtype* hlast);
SUNDIALS_EXPORT int IDAGetCurrentStep(void* ida_mem, sunrealtype* hcur);
SUNDIALS_EXPORT int IDAGetCurrentTime(void* ida_mem, sunrealtype* tcur);
SUNDIALS_EXPORT int IDAGetTolScaleFactor(void* ida_mem, sunrealtype* tolsfact);
SUNDIALS_EXPORT int IDAGetErrWeights(void* ida_mem, N_Vector eweight);
SUNDIALS_EXPORT int IDAGetEstLocalErrors(void* ida_mem, N_Vector ele);
SUNDIALS_EXPORT int IDAGetNumGEvals(void* ida_mem, long int* ngevals);
SUNDIALS_EXPORT int IDAGetRootInfo(void* ida_mem, int* rootsfound);
SUNDIALS_EXPORT int IDAGetIntegratorStats(void* ida_mem, long int* nsteps,
                                          long int* nrevals, long int* nlinsetups,
                                          long int* netfails, int* qlast,
                                          int* qcur, sunrealtype* hinused,
                                          sunrealtype* hlast, sunrealtype* hcur,
                                          sunrealtype* tcur);
SUNDIALS_EXPORT int IDAGetNonlinearSystemData(void* ida_mem, sunrealtype* tcur,
                                              N_Vector* yypred,
                                              N_Vector* yppred, N_Vector* yyn,
                                              N_Vector* ypn, N_Vector* res,
                                              sunrealtype* cj, void** user_data);
SUNDIALS_EXPORT int IDAGetNonlinearSystemDataSens(
  void* ida_mem, sunrealtype* tcur, N_Vector** yySpred, N_Vector** ypSpred,
  N_Vector** yySn, N_Vector** ypSn, sunrealtype* cj, void** user_data);
SUNDIALS_EXPORT int IDAGetNumNonlinSolvIters(void* ida_mem, long int* nniters);
SUNDIALS_EXPORT int IDAGetNumNonlinSolvConvFails(void* ida_mem,
                                                 long int* nnfails);
SUNDIALS_EXPORT int IDAGetNonlinSolvStats(void* ida_mem, long int* nniters,
                                          long int* nnfails);
SUNDIALS_EXPORT int IDAGetNumStepSolveFails(void* ida_mem, long int* nncfails);
SUNDIALS_EXPORT int IDAGetUserData(void* ida_mem, void** user_data);
SUNDIALS_EXPORT int IDAPrintAllStats(void* ida_mem, FILE* outfile,
                                     SUNOutputFormat fmt);
SUNDIALS_EXPORT char* IDAGetReturnFlagName(long int flag);

/* Free function */
SUNDIALS_EXPORT void IDAFree(void** ida_mem);

/* IDALS interface function that depends on IDAResFn */
SUNDIALS_EXPORT int IDASetJacTimesResFn(void* ida_mem, IDAResFn jtimesResFn);

/* ---------------------------------
 * Exported Functions -- Quadrature
 * --------------------------------- */

/* Initialization functions */
SUNDIALS_EXPORT int IDAQuadInit(void* ida_mem, IDAQuadRhsFn rhsQ, N_Vector yQ0);
SUNDIALS_EXPORT int IDAQuadReInit(void* ida_mem, N_Vector yQ0);

/* Tolerance input functions */
SUNDIALS_EXPORT int IDAQuadSStolerances(void* ida_mem, sunrealtype reltolQ,
                                        sunrealtype abstolQ);
SUNDIALS_EXPORT int IDAQuadSVtolerances(void* ida_mem, sunrealtype reltolQ,
                                        N_Vector abstolQ);

/* Optional input specification functions */
SUNDIALS_EXPORT int IDASetQuadErrCon(void* ida_mem, sunbooleantype errconQ);

/* Extraction and dense output functions */
SUNDIALS_EXPORT int IDAGetQuad(void* ida_mem, sunrealtype* t, N_Vector yQout);
SUNDIALS_EXPORT int IDAGetQuadDky(void* ida_mem, sunrealtype t, int k,
                                  N_Vector dky);

/* Optional output specification functions */
SUNDIALS_EXPORT int IDAGetQuadNumRhsEvals(void* ida_mem, long int* nrhsQevals);
SUNDIALS_EXPORT int IDAGetQuadNumErrTestFails(void* ida_mem, long int* nQetfails);
SUNDIALS_EXPORT int IDAGetQuadErrWeights(void* ida_mem, N_Vector eQweight);
SUNDIALS_EXPORT int IDAGetQuadStats(void* ida_mem, long int* nrhsQevals,
                                    long int* nQetfails);

/* Free function */
SUNDIALS_EXPORT void IDAQuadFree(void* ida_mem);

/* ------------------------------------
 * Exported Functions -- Sensitivities
 * ------------------------------------ */

/* Initialization functions */
SUNDIALS_EXPORT int IDASensInit(void* ida_mem, int Ns, int ism,
                                IDASensResFn resS, N_Vector* yS0, N_Vector* ypS0);
SUNDIALS_EXPORT int IDASensReInit(void* ida_mem, int ism, N_Vector* yS0,
                                  N_Vector* ypS0);

/* Tolerance input functions */
SUNDIALS_EXPORT int IDASensSStolerances(void* ida_mem, sunrealtype reltolS,
                                        sunrealtype* abstolS);
SUNDIALS_EXPORT int IDASensSVtolerances(void* ida_mem, sunrealtype reltolS,
                                        N_Vector* abstolS);
SUNDIALS_EXPORT int IDASensEEtolerances(void* ida_mem);

/* Initial condition calculation function */
SUNDIALS_EXPORT int IDAGetSensConsistentIC(void* ida_mem, N_Vector* yyS0,
                                           N_Vector* ypS0);

/* Optional input specification functions */
SUNDIALS_EXPORT int IDASetSensDQMethod(void* ida_mem, int DQtype,
                                       sunrealtype DQrhomax);
SUNDIALS_EXPORT int IDASetSensErrCon(void* ida_mem, sunbooleantype errconS);
SUNDIALS_EXPORT int IDASetSensMaxNonlinIters(void* ida_mem, int maxcorS);
SUNDIALS_EXPORT int IDASetSensParams(void* ida_mem, sunrealtype* p,
                                     sunrealtype* pbar, int* plist);

/* Integrator nonlinear solver specification functions */
SUNDIALS_EXPORT int IDASetNonlinearSolverSensSim(void* ida_mem,
                                                 SUNNonlinearSolver NLS);
SUNDIALS_EXPORT int IDASetNonlinearSolverSensStg(void* ida_mem,
                                                 SUNNonlinearSolver NLS);

/* Enable/disable sensitivities */
SUNDIALS_EXPORT int IDASensToggleOff(void* ida_mem);

/* Extraction and dense output functions */
SUNDIALS_EXPORT int IDAGetSens(void* ida_mem, sunrealtype* tret,
                               N_Vector* yySout);
SUNDIALS_EXPORT int IDAGetSens1(void* ida_mem, sunrealtype* tret, int is,
                                N_Vector yySret);

SUNDIALS_EXPORT int IDAGetSensDky(void* ida_mem, sunrealtype t, int k,
                                  N_Vector* dkyS);
SUNDIALS_EXPORT int IDAGetSensDky1(void* ida_mem, sunrealtype t, int k, int is,
                                   N_Vector dkyS);

/* Optional output specification functions */
SUNDIALS_EXPORT int IDAGetSensNumResEvals(void* ida_mem, long int* nresSevals);
SUNDIALS_EXPORT int IDAGetNumResEvalsSens(void* ida_mem, long int* nresevalsS);
SUNDIALS_EXPORT int IDAGetSensNumErrTestFails(void* ida_mem, long int* nSetfails);
SUNDIALS_EXPORT int IDAGetSensNumLinSolvSetups(void* ida_mem,
                                               long int* nlinsetupsS);
SUNDIALS_EXPORT int IDAGetSensErrWeights(void* ida_mem, N_Vector_S eSweight);
SUNDIALS_EXPORT int IDAGetSensStats(void* ida_mem, long int* nresSevals,
                                    long int* nresevalsS, long int* nSetfails,
                                    long int* nlinsetupsS);
SUNDIALS_EXPORT int IDAGetSensNumNonlinSolvIters(void* ida_mem,
                                                 long int* nSniters);
SUNDIALS_EXPORT int IDAGetSensNumNonlinSolvConvFails(void* ida_mem,
                                                     long int* nSnfails);
SUNDIALS_EXPORT int IDAGetSensNonlinSolvStats(void* ida_mem, long int* nSniters,
                                              long int* nSnfails);
SUNDIALS_EXPORT int IDAGetNumStepSensSolveFails(void* ida_mem,
                                                long int* nSncfails);

/* Free function */
SUNDIALS_EXPORT void IDASensFree(void* ida_mem);

/* -------------------------------------------------------
 * Exported Functions -- Sensitivity dependent quadrature
 * ------------------------------------------------------- */

/* Initialization functions */
SUNDIALS_EXPORT int IDAQuadSensInit(void* ida_mem, IDAQuadSensRhsFn resQS,
                                    N_Vector* yQS0);
SUNDIALS_EXPORT int IDAQuadSensReInit(void* ida_mem, N_Vector* yQS0);

/* Tolerance input functions */
SUNDIALS_EXPORT int IDAQuadSensSStolerances(void* ida_mem, sunrealtype reltolQS,
                                            sunrealtype* abstolQS);
SUNDIALS_EXPORT int IDAQuadSensSVtolerances(void* ida_mem, sunrealtype reltolQS,
                                            N_Vector* abstolQS);
SUNDIALS_EXPORT int IDAQuadSensEEtolerances(void* ida_mem);

/* Optional input specification functions */
SUNDIALS_EXPORT int IDASetQuadSensErrCon(void* ida_mem, sunbooleantype errconQS);

/* Extraction and dense output functions */
SUNDIALS_EXPORT int IDAGetQuadSens(void* ida_mem, sunrealtype* tret,
                                   N_Vector* yyQSout);
SUNDIALS_EXPORT int IDAGetQuadSens1(void* ida_mem, sunrealtype* tret, int is,
                                    N_Vector yyQSret);
SUNDIALS_EXPORT int IDAGetQuadSensDky(void* ida_mem, sunrealtype t, int k,
                                      N_Vector* dkyQS);
SUNDIALS_EXPORT int IDAGetQuadSensDky1(void* ida_mem, sunrealtype t, int k,
                                       int is, N_Vector dkyQS);

/* Optional output specification functions */
SUNDIALS_EXPORT int IDAGetQuadSensNumRhsEvals(void* ida_mem,
                                              long int* nrhsQSevals);
SUNDIALS_EXPORT int IDAGetQuadSensNumErrTestFails(void* ida_mem,
                                                  long int* nQSetfails);
SUNDIALS_EXPORT int IDAGetQuadSensErrWeights(void* ida_mem, N_Vector* eQSweight);
SUNDIALS_EXPORT int IDAGetQuadSensStats(void* ida_mem, long int* nrhsQSevals,
                                        long int* nQSetfails);

/* Free function */
SUNDIALS_EXPORT void IDAQuadSensFree(void* ida_mem);

/* ----------------------------------------
 * Exported Functions -- Backward Problems
 * ---------------------------------------- */

/* Initialization functions */

SUNDIALS_EXPORT int IDAAdjInit(void* ida_mem, long int steps, int interp);

SUNDIALS_EXPORT int IDAAdjReInit(void* ida_mem);

SUNDIALS_EXPORT void IDAAdjFree(void* ida_mem);

/* Backward Problem Setup Functions */

SUNDIALS_EXPORT int IDACreateB(void* ida_mem, int* which);

SUNDIALS_EXPORT int IDAInitB(void* ida_mem, int which, IDAResFnB resB,
                             sunrealtype tB0, N_Vector yyB0, N_Vector ypB0);

SUNDIALS_EXPORT int IDAInitBS(void* ida_mem, int which, IDAResFnBS resS,
                              sunrealtype tB0, N_Vector yyB0, N_Vector ypB0);

SUNDIALS_EXPORT int IDAReInitB(void* ida_mem, int which, sunrealtype tB0,
                               N_Vector yyB0, N_Vector ypB0);

SUNDIALS_EXPORT int IDASStolerancesB(void* ida_mem, int which,
                                     sunrealtype relTolB, sunrealtype absTolB);
SUNDIALS_EXPORT int IDASVtolerancesB(void* ida_mem, int which,
                                     sunrealtype relTolB, N_Vector absTolB);

SUNDIALS_EXPORT int IDAQuadInitB(void* ida_mem, int which, IDAQuadRhsFnB rhsQB,
                                 N_Vector yQB0);

SUNDIALS_EXPORT int IDAQuadInitBS(void* ida_mem, int which,
                                  IDAQuadRhsFnBS rhsQS, N_Vector yQB0);

SUNDIALS_EXPORT int IDAQuadReInitB(void* ida_mem, int which, N_Vector yQB0);

SUNDIALS_EXPORT int IDAQuadSStolerancesB(void* ida_mem, int which,
                                         sunrealtype reltolQB,
                                         sunrealtype abstolQB);
SUNDIALS_EXPORT int IDAQuadSVtolerancesB(void* ida_mem, int which,
                                         sunrealtype reltolQB, N_Vector abstolQB);

/* Consistent IC calculation functions */

SUNDIALS_EXPORT int IDACalcICB(void* ida_mem, int which, sunrealtype tout1,
                               N_Vector yy0, N_Vector yp0);

SUNDIALS_EXPORT int IDACalcICBS(void* ida_mem, int which, sunrealtype tout1,
                                N_Vector yy0, N_Vector yp0, N_Vector* yyS0,
                                N_Vector* ypS0);

/* Solver Function For Forward Problems */

SUNDIALS_EXPORT int IDASolveF(void* ida_mem, sunrealtype tout,
                              sunrealtype* tret, N_Vector yret, N_Vector ypret,
                              int itask, int* ncheckPtr);

/* Solver Function For Backward Problems */

SUNDIALS_EXPORT int IDASolveB(void* ida_mem, sunrealtype tBout, int itaskB);

/* Optional Input Functions For Adjoint Problems */

SUNDIALS_EXPORT int IDAAdjSetNoSensi(void* ida_mem);

SUNDIALS_EXPORT int IDASetUserDataB(void* ida_mem, int which, void* user_dataB);
SUNDIALS_EXPORT int IDASetMaxOrdB(void* ida_mem, int which, int maxordB);
SUNDIALS_EXPORT int IDASetMaxNumStepsB(void* ida_mem, int which,
                                       long int mxstepsB);
SUNDIALS_EXPORT int IDASetInitStepB(void* ida_mem, int which, sunrealtype hinB);
SUNDIALS_EXPORT int IDASetMaxStepB(void* ida_mem, int which, sunrealtype hmaxB);
SUNDIALS_EXPORT int IDASetSuppressAlgB(void* ida_mem, int which,
                                       sunbooleantype suppressalgB);
SUNDIALS_EXPORT int IDASetIdB(void* ida_mem, int which, N_Vector idB);
SUNDIALS_EXPORT int IDASetConstraintsB(void* ida_mem, int which,
                                       N_Vector constraintsB);
SUNDIALS_EXPORT int IDASetQuadErrConB(void* ida_mem, int which, int errconQB);

SUNDIALS_EXPORT int IDASetNonlinearSolverB(void* ida_mem, int which,
                                           SUNNonlinearSolver NLS);

/* Extraction And Dense Output Functions For Backward Problems */

SUNDIALS_EXPORT int IDAGetB(void* ida_mem, int which, sunrealtype* tret,
                            N_Vector yy, N_Vector yp);
SUNDIALS_EXPORT int IDAGetQuadB(void* ida_mem, int which, sunrealtype* tret,
                                N_Vector qB);

/* Optional Output Functions For Backward Problems */

SUNDIALS_EXPORT void* IDAGetAdjIDABmem(void* ida_mem, int which);

SUNDIALS_EXPORT int IDAGetConsistentICB(void* ida_mem, int which, N_Vector yyB0,
                                        N_Vector ypB0);

SUNDIALS_EXPORT int IDAGetAdjY(void* ida_mem, sunrealtype t, N_Vector yy,
                               N_Vector yp);

typedef struct
{
  void* my_addr;
  void* next_addr;
  sunrealtype t0;
  sunrealtype t1;
  long int nstep;
  int order;
  sunrealtype step;
} IDAadjCheckPointRec;

SUNDIALS_EXPORT int IDAGetAdjCheckPointsInfo(void* ida_mem,
                                             IDAadjCheckPointRec* ckpnt);

/* IDALS interface function that depends on IDAResFn */
SUNDIALS_EXPORT int IDASetJacTimesResFnB(void* ida_mem, int which,
                                         IDAResFn jtimesResFn);

/* Undocumented Optional Output Functions For Backward Problems */

/* -----------------------------------------------------------------
 * IDAGetAdjDataPointHermite
 * -----------------------------------------------------------------
 *    Returns the 2 vectors stored for cubic Hermite interpolation
 *    at the data point 'which'. The user must allocate space for
 *    yy and yd. Returns IDA_MEM_NULL if ida_mem is NULL,
 *    IDA_ILL_INPUT if the interpolation type previously specified
 *    is not IDA_HERMITE, or IDA_SUCCESS otherwise.
 * -----------------------------------------------------------------
 * IDAGetAdjDataPointPolynomial
 * -----------------------------------------------------------------
 *    Returns the vector stored for polynomial interpolation
 *    at the data point 'which'. The user must allocate space for
 *    y. Returns IDA_MEM_NULL if ida_mem is NULL, IDA_ILL_INPUT if
 *    the interpolation type previously specified is not
 *    IDA_POLYNOMIAL, or IDA_SUCCESS otherwise.
 * ----------------------------------------------------------------- */

SUNDIALS_EXPORT int IDAGetAdjDataPointHermite(void* ida_mem, int which,
                                              sunrealtype* t, N_Vector yy,
                                              N_Vector yd);

SUNDIALS_EXPORT int IDAGetAdjDataPointPolynomial(void* ida_mem, int which,
                                                 sunrealtype* t, int* order,
                                                 N_Vector y);

/* -----------------------------------------------------------------
 * IDAGetAdjCurrentCheckPoint
 *    Returns the address of the 'active' check point.
 * ----------------------------------------------------------------- */

SUNDIALS_EXPORT int IDAGetAdjCurrentCheckPoint(void* ida_mem, void** addr);

#ifdef __cplusplus
}
#endif

#endif
